Jiwaji University, Gwalior Course Details of M.Sc. Physics 2017-2019 ( for Colleges) _______________________________________________________________________ - 1 - COURSE DETAILS M. Sc. PHYSICS First SEMESTER (July - December 2017) Note: Each course shall be of 100 Marks out of which 15 marks are allotted to internal assessment and 85 marks for University examination. Minimum pass marks are 05 for the internal assessment and 29 for the University examination. THEORY COURSES PT – 101 METHODS IN MATHEMATICAL PHYSICS Unit – I Tensor Analysis Unit – II Elements of Complex Variable Unit – III Theory of Fourier and Laplace Transforms Unit – IV Special Functions Unit – V Partial Differential Equations PT – 102 CLASSICAL MECHANICS Unit – I Lagrangian Mechanics Unit – II Variational Principle Unit – III Two body central force problem and scattering Unit – IV ll oscillations Unit – V Transformation and equation of motion PT – 103 ELECTROMAGNETISM AND LASER OPTICS Unit – I Application of Maxwell Equations Unit – II Electromagnetic Wave an Isotropic Medium Unit - III Electromagnetic Wave Interactions Unit - IV Elements of Laser Physics Unit -V Nonlinear Optics PT – 104 SEMICONDUCTOR ELECTRONICS Unit - I Biasing Techniques And Linear Amplifier Unit - II Power Amplifier And Oscillators Unit - III Wave Shaping Circuits Unit - IV Basics of Differential and Operational Amplifiers Unit - V Application of Operational Amplifier LABORATORY COURSES PL – 105 General Laboratory PL – 106 Electronics Laboratory
24
Embed
Jiwaji University, Gwalior. (Physics for Colleges... · Jiwaji University, Gwalior Course Details of M.Sc. Physics 2017-2019 ... current, Fixed and emitter ... Operating conditions
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Jiwaji University, Gwalior Course Details of M.Sc. Physics 2017-2019 ( for Colleges) _______________________________________________________________________
- 1 -
COURSE DETAILS
M. Sc. PHYSICS First SEMESTER (July - December 2017)
Note: Each course shall be of 100 Marks out of which 15 marks are allotted to internal
assessment and 85 marks for University examination. Minimum pass marks are 05 for the
internal assessment and 29 for the University examination.
THEORY COURSES
PT – 101 METHODS IN MATHEMATICAL PHYSICS
Unit – I Tensor Analysis
Unit – II Elements of Complex Variable
Unit – III Theory of Fourier and Laplace Transforms
Unit – IV Special Functions
Unit – V Partial Differential Equations
PT – 102 CLASSICAL MECHANICS
Unit – I Lagrangian Mechanics
Unit – II Variational Principle
Unit – III Two body central force problem and scattering
Unit – IV ll oscillations
Unit – V Transformation and equation of motion
PT – 103 ELECTROMAGNETISM AND LASER OPTICS
Unit – I Application of Maxwell Equations
Unit – II Electromagnetic Wave an Isotropic Medium
Unit - III Electromagnetic Wave Interactions
Unit - IV Elements of Laser Physics
Unit -V Nonlinear Optics
PT – 104 SEMICONDUCTOR ELECTRONICS
Unit - I Biasing Techniques And Linear Amplifier
Unit - II Power Amplifier And Oscillators
Unit - III Wave Shaping Circuits
Unit - IV Basics of Differential and Operational Amplifiers
Unit - V Application of Operational Amplifier
LABORATORY COURSES
PL – 105 General Laboratory
PL – 106 Electronics Laboratory
Jiwaji University, Gwalior Course Details of M.Sc. Physics 2017-2019 ( for Colleges) _______________________________________________________________________
- 2 -
PT – 101 METHODS IN MATHEMATICAL PHYSICS
Max. Marks: 85 Pass Marks: 29
Note: This paper has been divided into FIVE units. The paper will be set as per existing
examination norms covering uniformly all the units and providing to the examinee
sufficient choice in each unit.
Unit – I Tensor Analysis
Definition of Tensor and its rank, Transformation laws of covariant, contravariant and
mixed tensors, Fundamental Operations with tensors (addition, subtraction and
multiplication), Inner and outer product, Contraction of tensors, Associated tensors,
Christoffel symbols, covariant differentiation of tensor
Unit – II Elements of Complex Variable
Functions of a complex variable, the derivative and the Cauchy-Riemann differential
equations, line integrals of complex functions, Cauchy's integral theorem, Cauchy's integral
of doping, Impurity levels, Population of impurity levels, Fields and carrier densities in
equilibrium, p-n junctions, Elementary picture of rectification by p-n junction.
Unit – V Optical Properties of Solids
Optical reflectance, Kramers-Kroning relations, Electronic intra and inter band transitions, Direct
and indirect transitions, Absorption of light in metals and semiconductors, Idea of excitons,
Elements of Raman effects in solids, Energy loss by fast moving particle in solids
BOOKS RECOMMENDED
1. Introduction to solid state physics: Kittel
2. Solid State Physics: Ashcroff and Mermin
3. An introduction to x-ray crystallography: woolfson
4. Solid state Physics: Azaroff
5. Intermediate quantum theory of crystalline solids: Aniamalu
6. Solid state Physics: Epifanov
Jiwaji University, Gwalior Course Details of M.Sc. Physics 2017-2019 ( for Colleges) _______________________________________________________________________
- 10 -
PT – 204 DIGITAL ELECTRONICS, NUMERICAL ANALYSIS
AND COMPUTER PROGRAMMING
Max. Marks: 85 Pass Marks : 29
Note: This paper has been divided into FIVE units, The paper will be set as per existing examination norms
covering uniformly all the units and providing to the examinee sufficient choice in each unit,
Unit – I Binary Logic, Digital Switching Circuits, Counters Binary number systems and other codes, Binary arithmetic, Boolean theorem, synthesis of Boolean functions, Karnaugh diagram, Logic Gates, combinational logic: half and full adders, demultiplexers, Multiplexers, D/A and A/D converters. Clock generator, sequential logic: RS flip flop, D flip flop, T flip flop, JK flip flop, Master-Slave flip flop, Shift register, Ripple counter, Decade counter, up-down counter, divide by n counters, Synchronous counters, Applications of counters, Dynamic MOS circuit, two phases of MOS, Idea of MOS shift register and MOSROM Unit – II Numerical Solutions, Least Square Fits and Error Analysis Numerical solutions of Transcedental equations: Iterative method, Bisection method, False Position and Newton Raphson method, Numerical solutions of simultaneous linear equations: Gauss Elimination and Gauss Seidel method, Least Square fits: Linear and polynomial regression, Error analysis: Basic concepts of errors and their types with special reference to numerical methods Unit – III Interpolation, Numerical Integration and Solution of Differential Equations Forward, Backward and Central differences and their symbolic relation with shift operator, Newton 's forward and backward interpolation, Gauss central difference interpolation formula, Trapezoidal formula and Simpson 1/3 rule, Solution of Differential equation: Picard's method, Eulers method, and Runga-Kutta methods (second and Fourth order) Unit – IV Computer Programming Introduction to modern digital computers, Organization to a digital computer, Computer instruction and programs, Motivation of high level languages, Basic elements of any programming language, Arithmetic expressions, operators, Standard arithmetic functions, Input and output statements, various types of control statements, loops, nesting of loops, concept of main program, subprograms, declarations statements
Unit – V Programming in ‘C’
Introduction to programming in C; constants, variables, operators, header files; Statements: Input/output, control, looping, general examples based on units II and III. BOOKS RECOMMENDED
1. Digital principals and applications: Malvino & Leach 2. Electronic Devices and Circuits: Millman and Halkius 3. Numerical Analysis: Rajaram 4. Computer programming by S.S. Sastri 5. Programming in C: Balaguruswami 6. Numerical Computational methods by Patil and Verma
Jiwaji University, Gwalior Course Details of M.Sc. Physics 2017-2019 ( for Colleges) _______________________________________________________________________
- 11 -
COURSE DETAILS PHYSICS III SEMESTER (July - December 2018)
Note: Each course shall be of 100 Marks out of which 15 marks are allotted to internal assessment and 85
marks for University examination. Minimum pass marks are 05 for the internal assessment and 29 for the
University examination.
THEORY COURSES.
PT – 301 QUANTUM MECHANICS - II
Unit - I Approximation methods for bound states - II
Unit- II Approximation methods for time dependent problems
Unit - III Identical Particles
Unit - IV scattering theory
Unit - V Elements of relativistic quantum mechanics
photodiode detectors, Idea of optical fibre communication system
BOOKS RECOMMENDED
1. Radio and electrical engineering: Terman.
2. Microwave devices and circuits: Lio.
3. Microwave: Atwarter.
4. Microwave Engineering: Rizzi.
5. Microstrip lines: K.C. Gupta.
6. Optical fibre system: C.K.Kao.
7. Optical fibre communication: Kaiser.
8. Optical communication system: Gower.
9. Optical electronics: Ghatak.
10. An introduction to optical fibres : Cherian.
Jiwaji University, Gwalior Course Details of M.Sc. Physics 2017-2019 ( for Colleges) _______________________________________________________________________
- 16 -
PT – 304B MATERIALS SCIENCE – I
Max. Marks: 85 Pass Marks : 29
Note: This paper has been divided into FIVE units. The paper will be set as per existing
examination norms covering uniformly all the units and providing to the examinee sufficient choice
in each unit.
Unit - I Classification of Materials
Types of materials: Crystalline, Polycrystalline, Amorphous (Introduction and their structure),
Elementary idea of polymers (structure and properties) methods of polymerization, Glasses:
Structure and properties, Type of Glasses, Fracture in glasses, Composite Materials: Introduction,
their types and properties, Different types of bonding, Medalung energy for ionic crystal.
Unit - II Phase Transitions
Thermodynamics of phase transformation, Free-energy calculation, I and II order transformation,
Hume-Rothery rule, solid solution and types of solid solutions, Phase rule, One-, Two- component
systems, Eutectic and peritectic phase diagrams, Lever rule, Phase diagrams of Mg-Al, Fe-C
Kinetics of transformation, Homogeneous and heterogeneous nucleation, Growth kinetics.
Unit - III Diffusion in Materials and Microscopy
Mechanism of diffusion, Energy of formation and motion, long distance motion, Rate theory of
diffusion, Einstein relation (relation between diffusivity and mobility), Fick's laws of diffusion and
solution of Fick's second law, Kirkendal effect, Diffusion of vacancies in ionic crystals,
Experimental determination of Diffusion coefficient.
Unit - IV Elastic and Anelastic Behaviour
Atomic models for elastic behaviour, Elastic deformation in single crystals, Elastic anisotropy,
Elastic constant and elastic moduli (Cubic system, isotropic body), Rubber like elasticity, anelastic
behaviour, Thermo-elastic effect and relaxation process, Idea of viscoelastic behaviour (Spring-
Dashpot model), Determination of elastic constant of cubic crystals by ultrasonic wave propagation
Unit - V Exotic Materials
Structure and symmetries of liquids, liquid crystals and amorphous solids, aperiodic solids and
quasicrystals, definition and properties of nanostrucrured materials, methods of synthesis of
nanomaterials, their characterization techniques, quantum size effect, idea of quanrum well, wire
and dots.
BOOKS RECOMMENDED
1. Materials and Engineering. Raghavan
2. Introduction to Solids Wert and Thomson
3. Introduction to solids. L.V. Azaroff
4. Diffusion kinetics for atoms in crystals: Manning
5. Introduction to solid state Physics - Kittle
6. Elements Solid State Phsics - Ali Omar.
7. The Physics of Quasi Crystals - Steinhardt and Osrulond.
8. Hand Book of Nanostrucrured Materials and Nanotechnology (Vol I –IV) - Hari Singh
Nalwa.
Jiwaji University, Gwalior Course Details of M.Sc. Physics 2017-2019 ( for Colleges) _______________________________________________________________________
- 17 -
PT – 304C COMPUTER APPLICATIONS IN PHYSICS – I
Max. Marks: 85 Pass Marks : 29
Note: This paper has been divided into FIVE units. The paper will be set as per existing examination norms
covering uniformly all the units and providing to the examinee sufficient choice in each unit.
Unit – I Computer Peripherals Introduction to computer, Computer peripherals: input and output Units, concept about central processing unit; registers, register pairs, Timing and control Unit, fetch and execute cycle, memories: volatile and non-volatile memories, Differences between high and low-level languages, Concept about compiler and interpreter Unit – II Assembly Language Programming Concept of machine language, Assembly language and assembler, Instruction set of 8085, Op-codes, Mnemonics, Instruction and data format, Addressing modes, Instruction set: data transfer group, arithmetic group, logical group, branch group and stack, I/O and machine control group, Programs based on these statements Unit – III Operating System and Soft wares Historical perspective of operating systems: MS-DOS, Windows, Linux, Concepts of batch processing, multi-programming, timesharing, multiprocessing and real-time systems, Operating system services: User view and operators views; File management, File types, Operation on files, Device directory, Access methods, Allocation methods and free space management, Directory systems. Unit – IV MS-Office MS Word: Creating and editing Word document, saving and printing of document, autoformat, format paragraph, line spacing, space before and after paragraph, margins and gutters, page break, repagination, sections, creating headers and footers, setting and clearing tabs, table insertion, use of micro, mail merge creation, sorting and printing merge documents. MS Excel: Creating and editing worksheet, entering and formatting numbers, dates, formulae, referencing cells, single range, mixed, copying entries, autofill - numbers, dates, time, protecting and un-protecting documents and cells. Moving cells, copying cell, sorting cells data, inserting rows and columns, deleting part of worksheet, changing column and row width, Power Point: Power point basics, creating presentations, editing and moving text, formatting. Unit – V DBMS Data base file creation, editing, saving structure, entering, listing, removing, updating, sorting, searching and viewing records, closing database; seek, index, sort, time, date, mathematical functions, mathematical commands, control statements, do case, handling multiple database files. BOOKS RECOMMENDED
1. Microsoft office: Ron Mansfield 2. FoxPro: R K Taxali 4. Windows 95 Made Easy by Tom Sheldon (Tata McGraw-Hill, New Delhi 5. Introduction to Microprocessor by Mathur
Jiwaji University, Gwalior Course Details of M.Sc. Physics 2017-2019 ( for Colleges) _______________________________________________________________________
- 18 -
COURSE DETAILS
IV SEMESTER (January - June 2019)
PHYSICS
Note: Each course shall be of 100 Marks out of which 15 marks are allotted to internal assessment and 85
marks for University examination. Minimum pass marks are 05 for the internal assessment and 29 for the
University examination.
THEORY COURSES
PT – 401 NUCLEAR PHYSICS
Unit – I Nucleus and its Properties
Unit –II Two body Problems
Unit -III Nuclear Models
Unit - IV Nuclear Decay
Unit - V Nuclear Reactions
PT – 402 INSTRUMENTATION and COSMIC RAYS
Unit – I Measurement of Temperature
Unit – II X-Ray Spectroscopy and Crystal Growth Techniques
Unit – III Biomedical Instrumentation
Unit – IV Elements of high-resolution spectroscopy
Unit – V Cosmic Rays
PT – 403 STATISTICAL MECHANICS
Unit – I Microcanonical Ensemble
Unit – II Canonical Ensemble
Unit – III Grand Canonical Ensemble – I
Unit – IV Grand Canonical Ensemble – II
Unit – V Fluctuations
PT – 404A INTEGRATED ELECTRONICS
Unit – I Materials for Integrated Circuits
Unit – II Integrated circuit fabrication technology
Unit – III Growth of Thin Films
Unit – IV Diffusion and Ion Implantation
Unit – V Monolithic circuit fabrication
PT – 404B MATERIALS SCIENCE – II
Unit – I Dislocation and Plastic Deformation of Materials
Unit – II Transport Properties of Solids
Unit – III Degradation of materials, electronic properties in magnetic field
Unit – IV Many Electron Problem in Solids
Unit – V Electron Phonon Interaction and Superconductivity
PT – 404C COMPUTER APPLICATIONS IN PHYSICS – II
Unit – I Networking and Multimedia
Unit – II Computer Graphics – I (2-D)
Unit – III Computer Graphics – II (3-D)
Unit – IV Simulation Programmes
Unit – V Development of Scientific Soft wares
LABORATORY COURSES
PL – 405 General Laboratory
PL – 406A Electronics Laboratory
PL – 406B Material Science Laboratory
PL – 406C Computer Science Laboratory
Jiwaji University, Gwalior Course Details of M.Sc. Physics 2017-2019 ( for Colleges) _______________________________________________________________________
- 19 -
PT – 401 NUCLEAR PHYSICS
Max. Marks: 85 Pass Marks : 29
Note: This paper has been divided into FIVE units. The paper will be set as per existing
examination norms covering uniformly all the units and providing to the examinee sufficient choice
in each unit.
Unit – I Nucleus and its Properties
The constitution of the nucleus and its general properties: Proton-electron hypothesis, Nucleus as a
quantum system, Proton-neutron hypothesis, Nuclear mass, Basic components of mass
spectroscopy, Mirror nuclei and isotopic spin (introductory), Packing fraction and binding energies,
Nuclear radius- its determination and interpretation of results (experimental details not required),
FET, MOS FET processing, advantages and limitations of MOS devices, CCD devices, Idea of
large and medium scale Integration.
Books Recommended:
1. Fundamentals of Electronics: Millman and Halkias
2. Fundamentals of Electronics. Botkar
Jiwaji University, Gwalior Course Details of M.Sc. Physics 2017-2019 ( for Colleges) _______________________________________________________________________
- 23 -
PT – 404B MATERIALS SCIENCE – II
Max. Marks: 85 Pass Marks : 29
Note: This paper has been divided into FIVE units. The paper will be set as per existing
examination norms covering uniformly all the units and providing to the examinee sufficient choice
in each unit.
Unit – I Dislocation and Plastic Deformation of Materials
Concept of dislocation, Dislocation of Movement, Stress field and strain energy of a dislocation,
Forces on dislocation and between dislocations, Homogeneous nucleation of dislocations, Typical
tensile stress-strain curve, Strength of a material, Work hardening by impurity atoms, yield drops,
Shear strength of perfect and real solids, Creeps and their mechanism, Toughness, Fatigue,
Methods of observing dislocations (their introduction, merits and demerits).
Unit – II Transport Properties of Solids
Electrical conductivity of metals and alloys, Extrinsic, intrinsic semiconductors and amorphous
semiconductors, Scattering of electrons by phonons, impurity, etc, Relaxation time, Carrier
mobility and its temperature dependence, Mathiesson’s rule for resistivity, temperature dependence
of metallic resistivity.
Unit- III Degradation of materials, electronic properties in magnetic field
Mechanism of oxidation, Oxidation-resistant materials, Corrosion and protection against it,
Classical theory of magneto-conductivity, Cyclotron resonance, k-space analysis of motion in
uniform magnetic field, de Hass von Alphon effect, Ultrasonic attenuation and skin effect.
Unit-IV Many Electron Problem In Solids
Interacting electron gas; concept of many electron system, Thomas-Fremi Theory, Hartree and
Hartree-Fock approximation, Correlation energy, Lindhardt theory, and Thomas-Fermi theory of
screening, Plasma oscillations in free electron gas, Dielectric function of an electron gas in random
phase approximation, strongly interacting Fermi system, Idea of Landau’s quasi-particle theory of
Fermi liquid
Unit-V Electron Phonon Interaction And Superconductivity
Interaction of electron with acoustic and optical phonon, Polarons, Superconductivity,
Manifestation of energy gap, Isotope effect, Cooper Pairing due to Phonons, BCS theory,
Ginzsburg-Landau theory and applications to Josephson effect (D.C. and A.C. both), Macroscopic
quantum interference, Vortices and Type II - Superconductors, Idea of high Tc superconductivity.
BOOKS RECOMMENDED
1. Introduction to Dislocations: Hull
2. Material Science and Engineering: Raghwan
3. Solid Slate Physics: Ashcroft and Mormin
4. Introduction to Solid Slate Physics - Kittle
5. Introduction to Superconductivity - Roseinnes and Rhodrick
6. Quantum theory of Solids -Kittel
7. Theoretical Solid State Physic - Huang.
Jiwaji University, Gwalior Course Details of M.Sc. Physics 2017-2019 ( for Colleges) _______________________________________________________________________
- 24 -
PT – 404C COMPUTER APPLICATIONS IN PHYSICS – II
Max. Marks: 85 Pass Marks : 29
Note: This paper has been divided into FIVE units. The paper will be set as per existing
examination norms covering uniformly all the units and providing to the examinee sufficient choice
in each unit.
Unit – I Networking and Multimedia Network types of architecture: LAN, WAN, MAN topology, interfaces and devices, multimedia, technique of data compression, voice, video, interactive video-on-demand over the net, mobile computing, Fundamental of network and management (NM), elements of NM its need and functional areas, configuration, performance and security managements. Unit – II Computer Graphics – I (2-D) Types of graphic devices, CRT display, Random and raster scan graphics, DDA, Line drawing, Algorithms, Bresenham's algorithms, Cell encoding, Frame buffers, Raster addressing, Line and character display, Transformation of points, Lines and objects, Homogeneous coordinate systems and transformation matrices for various operations, Sequential transformations, Viewport planning, Window clipping, Window to Viewport mapping, Physical device coordinates, Zooming Unit – III Computer Graphics – II (3-D) 3-D transformations: Translational, Rotational and Scaling; Clipping in three-dimension, 3-D viewing transformation, 3-D drawing: direct projection, quadratic surfaces, removing hidden surfaces, drawing a cube and a sphere Unit – IV Simulation Programmes Knowledge about input, processing and output related to following problems for writing computer programs and showing results in the form of list or plots: Charging of capacitor, Discharging of capacitor, Resonance in LC circuit, Drawing potential energy curve, Programming for trapezoidal rule and Simpson’s 1/3 rule. Expressing various shape wave functions as a Fourier series. Obtaining approximate numerical solutions to the simultaneous equations using Gauss Seidel method. Unit – V Development of Scientific Soft wares Obtaining numerical solution to ordinary differential equations using different initial conditions; Solution of Schrodinger equation for different potential: Potential well problem in one- and three-dimension, Interaction between two charged particles, penetration of charge particles through a potential barrier, BOOKS RECOMMENDED
1. Computer graphics by S.Harrington 2. Computer graphics by D.Hearn and P.M.Baker 3. Procedural elements for computer graphics by D.F.Rogers 4. Numerical Computational methods by Patil and Verma